KR20200035006A - Control method, node and computer storage media - Google Patents

Abstract

In the present invention, a control method, a node, and a computer storage medium are disclosed. In the method, when configuring a data bearer for a user equipment (UE), command information is transmitted to a second node; Among them, the command information includes turning on or off control of a data duplication function for the UE of the second node.

Description

Control method, node and computer storage media

The present application relates to the field of vehicle internet technology, and more particularly to a control method, a node and a computer storage medium.

The widespread use of small cellular and the corresponding demand for a non-ideal reverse backhaul resulted in a dual connectivity technology, that is, a carrier aggregation scheme in which one terminal is simultaneously connected to one macro base station and one small cellular base station, and the dual connectivity technology Below, the replication data transmission scheme uses a split bearer protocol structure.

Currently, in a radio bearer configured with a replication data transmission function, a bearing data replication transmission function is dynamically activated or de-activated through a control element (CE). For a double connection situation, the main cell group (MCG) and the secondary cell group (SCG) respectively transmit MAC CE to activate or deactivate the replication data function of any split bearer in the terminal. However, under a dual connection situation, since both the master node (for example, the node in the MCG) and the slave node (for example, the node in the SCG) can transmit MAC CE, the network node span Need mutual harmony.

In order to solve the above technical problem, an embodiment of the present invention provides a control method, a node, and a computer storage medium.

The control method provided in the embodiment of the present invention is applied to the first node,

When configuring a data bearer for a user equipment (UE), send command information to a second node; Among them, the command information includes turning on or off control of a data duplication function for the UE of the second node.

The control method provided in the embodiment of the present invention is applied to the second node,

When configuring a data bearer for a user equipment (UE), receive command information transmitted by a first node; The command information includes turning on or off control of a data duplication function for the UE of the second node.

In the first node provided by the embodiment of the present invention,

When configuring a data bearer for a user equipment (UE), send command information to a second node; Among them, the command information includes a first communication unit that turns on or off control of a data duplication function for the UE of the second node.

In the second node provided by the embodiment of the present invention,

When configuring a data bearer for a user equipment (UE), receive command information transmitted by a first node; The command information includes a receiving unit that turns on or off control of a data duplication function for the UE of the second node.

In the computer storage medium provided in the embodiment of the present invention, computer-executable instructions are stored, and when the computer-executable instructions are executed, the data scheduling method of the embodiment of the present invention is implemented.

The technical method of the embodiment of the present invention turns on or off control of the data replication function for the UE of the second node through the first node, and then back to the UE based on the control of the first node or the second node. Instructs the user to proceed with the control of the replication function. Therefore, the UE side receives the control information of the second node and the first node under the condition of a double connection, and prevents the problem of controlling the data replication function, and in advance balances between the second node and the first node. By making it possible to proceed, it improves the coordination and processing efficiency between each node in the network structure.

1 is a flowchart of a control method of an embodiment of the present invention 1.
2 is a flowchart of a control method in an embodiment of the present invention 2.
3 is a flowchart of a control method in an embodiment of the present invention 3.
4 is a flowchart of a control method of an embodiment of the present invention 4.
5 is a flowchart of the control method of the embodiment of the present invention 5.
6 is a structural diagram of an embodiment of the present invention.
Fig. 7 is a schematic diagram of a first node configuration in an embodiment of the present invention.
Fig. 8 is an exploded view of a second node configuration in an embodiment of the present invention.
9 is a hardware structure diagram of an embodiment of the present invention.

In order to grasp the features and technical details of the embodiments of the present invention in more detail, the detailed description of the implementation of the embodiments of the present invention will be provided with reference to the drawings below. It is not intended to limit the embodiments of the invention.

Example 1

The present application provides a node harmonization method, which is applied to the first node, and as shown in FIG. 1,

Step 101: when configuring a data bearer for a user equipment (UE), transmit command information to a second node; Among them, the command information turns on or off control of a data duplication function for the UE of the second node;

Step 102: transmit activation or deactivation control information to the UE; Among them, the activation or deactivation control information includes instructing the UE to proceed with activation or deactivation control of the data replication function according to the control information of the second node or the first node.

It should be explained that the second node in this embodiment may be a control node (for example, a primary node) in the primary cell group, and the first node may be a control node (for example, a dependent node) in the secondary cell group. There is; Or, conversely, the first node may be the primary node, and the second node may be the dependent node, which is not detailed here.

The control information may be included and transmitted by the MAC control element CE, and a detailed description thereof will be omitted here.

Specifically, when configuring a data bearer for the user equipment (UE), to transmit command information to the second node,

First type command information is transmitted to the second node, among which, the first type command information instructs the second node to perform activation or deactivation control of the data replication function to the UE;

or,

The second type command information is transmitted to the second node. Among them, the second type command information includes instructing the second node not to proceed with activation or deactivation control of the data replication function. .

In other words, the first node controls whether the second node turns on the data replication function for the UE. Correspondingly, to transmit activation or deactivation control information to the UE,

When the command information for the UE transmitted to the second node is the first type command information, the first type activation or deactivation control information is transmitted to the UE. Among them, the first type activation or deactivation control information is Instruct the UE to proceed with activation or deactivation control of the data replication function based on the control information (MAC control element (CE)) of the second node;

When the command information for the UE transmitted to the second node is the second type command information, the second type activation or deactivation control information is transmitted to the UE. Among them, the second type activation or deactivation control information is And instructing the UE to proceed with activation or deactivation control of the data replication function based on the control information (MAC control element (CE)) of the first node.

Through the first type command information or the second type command information, the UE is notified whether to proceed with control of the data replication function based on the MAC CE of the second node or the first node.

Furthermore, it should be pointed out that the network of step 101 of the present embodiment can be implemented by being included in various processes before configuring the user's data bearer, for example, to configure one SCG split bearer. When the processing provided in this embodiment can be carried out; In addition, it is needless to say that the operation can be performed in other processing steps, and it will not be described in detail in the present embodiment.

The present embodiment can provide the following various situations. In the following situation, the first node is the slave node, and the second node is the primary node. However, in the actual processing, the second node is the slave node. Then, it will be understood that the first node can be the main node, and only in this embodiment, all the situations are not listed in detail.

Situation 1:

Referring to Figure 2,

Step 21: Before the network configures the user's data bearer, for example, when configuring one SCG split bearer, a slave node (i.e., the first node) is a master node (i.e., the A second node) to transmit information (in other words, first type indication information), instruct the master node to transmit MAC CE to control data replication;

Step 22: The primary node transmits the activation or deactivation control information to the user device (which may be the first type of activation or deactivation control information here), thereby replicating data by the MAC CE sent by the master node to the UE It tells you to proceed with the activation or deactivation control of the function.

Furthermore, after completing step 22, the main node can also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 2:

Referring to Figure 3,

Step 31: Before the network configures the user's data bearer, for example, when configuring one SCG split bearer, the slave node is the master node (in other words, the first type indication information) ) To send MAC CE to the main node, instructing to proceed with control of data duplication;

Step 32: The slave node transmits control information (which may be first type activation or deactivation control information here), and controls the activation or deactivation of the data replication function by the MAC CE sent by the master node to the UE Tells you to proceed.

Further, after completing step 32, the main node may also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 3:

Referring to Figure 4,

Step 41: Before the network configures the user's data bearer, for example, when configuring one SCG split bearer, the slave node is the master node (that is, the second type indication information) ) To indicate that there is no need to proceed with the control of data replication by sending MAC CE to the main node;

Step 42: The slave node transmits control information (which may be second type activation or deactivation control information) to the user device to control activation or deactivation of the data replication function by MAC CE sent by the slave node to the UE. Tell them to proceed.

Furthermore, after completing step 42, the slave node may also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 4:

Referring to Figure 5,

Step 51: Before the network configures the user's data bearer, for example, when configuring one SCG split bearer, the slave node is the master node (that is, the second type indication information) ) To indicate that there is no need to proceed with the control of data replication by sending MAC CE to the main node;

Step 52: The primary node transmits control information (which may be second type activation or deactivation control information) to the user device, thereby controlling activation or deactivation of the data replication function by MAC CE sent by the slave node to the UE. Tell them to proceed.

Furthermore, after completing step 52, the first node can also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Finally, a description of the overall structure for performing the data replication function described in this embodiment may refer to FIG. 6, and the replication data transmission method may be referred to as uplink / downlink, packet data convergence protocol (PDCP, Packet Data). The Convergence Protocol layer is located in a cell group (CG, CEll Group), and among them, a cell group may include a master cell group (MCG) and a secondary cell group (SCG). PDCP duplicates the PDCP Protocol Data Unit (PDU) into the same two; The two PDCPs reach the corresponding MAC and RLC layers of the terminal (downlink) or base station (uplink) through the RLC, MAC, and air interfaces of the other CGs, and finally converge to the PDCP again; When the PDCP layer monitors that two PDCPs are the same replication version, one of them is discarded and the other is transferred to the upper layer.

As can be seen from this, through the use of the scheme, the control of the data duplication function for the UE of the second node through the first node can be turned on or off, and the first node or the node can be sent back to the UE. It is instructed to proceed with the control of the data replication function based on the control of the second node. Therefore, the UE side receives the control information of the second node and the first node under the condition of a double connection, and prevents the problem of controlling the data replication function, and in advance balances between the second node and the first node. By making it possible to proceed, it improves the coordination and processing efficiency between each node in the network structure.

Example 2

The present application provides a node harmonization method, and is adapted to the second node.

When configuring a data bearer for a user equipment (UE), receive command information transmitted by a first node; The command information includes turning on or off control of a data duplication function for the UE of the second node.

It is the same as the definition of the second node and the first node in the above embodiment, and detailed description is omitted here.

After receiving the command information, the method may also include several processing methods below.

Method 1: When the command information sent by the first node is first type command information, the first type command information instructs the second node to proceed with activation or deactivation control of the data replication function to the UE;

Transmit first type activation or deactivation control information to the UE; Among them, the first type activation or deactivation control information proceeds to activate or deactivate the data replication function based on the control information of the second node (specifically, it may be a MAC control element (CE)) to the UE. Instruct them to do so.

Method 2:

When the command information transmitted by the first node is second type command information, the second type command information instructs the second node not to perform activation or deactivation control of the data replication function to the UE;

Transmit second type activation or deactivation control information to the UE; Among them, the second type activation or deactivation control information proceeds to activate or deactivate the data replication function based on the control information of the first node (specifically, it may be a MAC control element (CE)) to the UE. Instruct them to do so.

After transmitting the first type activation or deactivation control information to the UE, the method also includes:

And transmitting control information of activation or deactivation of the data replication function to the UE through MAC CE. In other words, after determining that the second node controls the data replication function of the UE, specific control information on activation or deactivation of the data replication function may be transmitted to the UE.

Furthermore, it should be pointed out that the network of the present embodiment can be implemented by being included in various processing processes before configuring the user's data bearer, for example, when configuring one SCG split bearer. The processing provided in the examples can be carried out; In addition, it is needless to say that the operation can be performed in other processing steps, and it will not be described in detail in the present embodiment.

The present embodiment can provide the following various situations. In the following situation, the first node is the slave node, and the second node is the primary node. However, in the actual processing, the second node is the slave node. Then, it will be understood that the first node can be the main node, and only in this embodiment, all the situations are not listed in detail.

Situation 1:

Referring to Figure 2,

Step 21: Before the network configures the user's data bearer, for example, when configuring one SCG split bearer, the slave node is the master node (that is, the first type indication information) ) To send MAC CE to the main node, instructing to proceed with control of data duplication;

Step 22: activation of the data replication function by MAC CE sent by the master node to the UE by sending the control information to the user device by the main node (which may be first type activation or deactivation control information here) Or, it informs the deactivation control to proceed.

Furthermore, after completing step 22, the main node can also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 2:

Referring to Figure 3,

Step 31: Before the network configures the user's data bearer, for example, when configuring one SCG split bearer, the slave node is the master node (in other words, the first type indication information) ) To send MAC CE to the main node, instructing to proceed with control of data duplication;

Step 32: The slave node transmits control information (which may be first type activation or deactivation control information here) to the user device, so that the data replication function is activated by the MAC CE sent by the master node to the UE Or, it informs the deactivation control to proceed.

Further, after completing step 32, the main node may also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 3:

Referring to Figure 4,

Step 41: Before the network configures the user's data bearer, for example, when configuring one SCG split bearer, the slave node is the master node (that is, the second type indication information) ) To indicate that there is no need to proceed with the control of data replication by sending MAC CE to the main node;

Step 42: The slave node transmits control information (which may be second type activation or deactivation control information) to the user device to control activation or deactivation of the data replication function by MAC CE sent by the slave node to the UE. Tell them to proceed.

Furthermore, after completing step 42, the slave node may also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 4:

Referring to Figure 5,

Step 51: Before the network configures the user's data bearer, for example, when configuring one SCG split bearer, the slave node is the master node (that is, the second type indication information) ) To indicate that there is no need to proceed with the control of data replication by sending MAC CE to the main node;

Step 52: The primary node transmits control information (which may be second type activation or deactivation control information) to the user device, thereby controlling activation or deactivation of the data replication function by MAC CE sent by the slave node to the UE. Tell them to proceed.

Furthermore, after step 52 is completed, the slave node can also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Finally, a description of the overall structure for performing the data replication function described in this embodiment may refer to FIG. 6, and the replication data transmission method may be referred to as uplink / downlink, packet data convergence protocol (PDCP, Packet Data). The Convergence Protocol layer is located in a cell group (CG, CEll Group), and among them, a cell group may include a master cell group (MCG) and a secondary cell group (SCG). PDCP duplicates the PDCP Protocol Data Unit (PDU) into the same two; The two PDCPs reach the corresponding MAC and RLC layers of the terminal (downlink) or base station (uplink) through the RLC, MAC, and air interfaces of the other CGs, and finally converge to the PDCP again; When the PDCP layer monitors that two PDCPs are the same replication version, one of them is discarded and the other is transferred to the upper layer.

As can be seen from this, through the use of the scheme, the control of the data duplication function for the UE of the second node through the first node can be turned on or off, and the first node or the node can be sent back to the UE. It is instructed to proceed with the control of the data replication function based on the control of the second node. Therefore, the UE side receives the MAC CE of the second node and the first node under a dual connection situation, and prevents the problem of controlling the data replication function, and in advance balances between the second node and the first node. By making it possible to proceed, it improves the coordination and processing efficiency between each node in the network structure.

Example 3

In this application, a first node is provided, as shown in FIG. 7,

When configuring a data bearer for a user equipment (UE), send command information to a second node; Among them, the command information includes a first communication unit 71 that turns on or off control of a data duplication function for the UE of the second node;

Transmitting activation or deactivation control information to the UE; Among them, the activation or deactivation control information includes controlling the activation or deactivation control of the data replication function by the UE through the control information of the second node or the first node (specifically, it may be a MAC control element (CE)). A second communication unit 72 is included that includes instructions to proceed.

It should be explained that the second node in this embodiment may be a control node in the primary cell group, and the first node may be a control node in the secondary cell group.

Specifically, the first communication unit 71 transmits first type command information to the second node, among which the first type command information is a data replication function for the UE to the second node. Instruct to proceed with activation or deactivation control;

or,

The first communication unit 71 transmits second type command information to the second node, among which, the second type command information controls activation or deactivation of a data replication function for the UE to the second node Instruct not to proceed.

In other words, when the command information for the UE transmitted to the second node is the first type command information, the second communication unit 72 transmits the first type activation or deactivation control information to the UE. Among them, the first type activation or deactivation control information instructs the UE to proceed with activation or deactivation control of a data replication function based on control information of a second node (specifically, it may be a MAC control element (CE)). And;

When the command information for the UE transmitted to the second node is the second type command information, the second type activation or deactivation control information is transmitted to the UE. Among them, the second type activation or deactivation control information is The UE is instructed to proceed with activation or deactivation control of the data replication function based on the control information of the first node (specifically, it may be a MAC control element (CE)).

Through the first type command information or the second type command information, the UE is notified whether to proceed with control of the data replication function based on the MAC CE of the second node or the first node.

Furthermore, it should be pointed out that the network can be implemented by being included in various processing processes before configuring the user's data bearer, for example, provided in this embodiment when configuring one SCG split bearer. Can be carried out; In addition, it is needless to say that the operation can be performed in other processing steps, and it will not be described in detail in the present embodiment.

The present embodiment can provide the following various situations. In the following situation, the first node is the slave node, and the second node is the primary node. However, in the actual processing, the second node is the slave node. Then, it will be understood that the first node can be the main node, and only in this embodiment, all the situations are not listed in detail.

Situation 1:

Referring to Figure 2,

The slave node slave node sends information (in other words, the first type indication information) to the main node, and sends MAC CE to the main node to instruct to control data replication; The primary node transmits control information (which may be the first type of activation or deactivation control information) to the user device, and controls the activation or deactivation of the data replication function by the MAC CE sent by the master node to the UE. Tells you to proceed.

Furthermore, the main node may also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 2:

When the network configures the user's data bearer, for example, when configuring one SCG split bearer, the first communication unit of the slave node is the master node (in other words, the first node) Type indication information) to send MAC CE to the main node to instruct to control data replication;

The second communication unit of the slave node transmits control information (here, it may be first type activation or deactivation control information) to the user device, thereby replicating data by the MAC CE transmitted by the master node to the UE It tells you to proceed with the activation or deactivation control.

Furthermore, the main node may also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 3:

When the network configures the user's data bearer, for example, when configuring one SCG split bearer, the first communication unit of the slave node is the master node (in other words, the second type) Indication information), and sends MAC CE to the main node to indicate that there is no need to proceed with data replication control;

Activation or deactivation of the data replication function by the MAC CE transmitted by the slave node to the UE by transmitting the control information (here, the second type activation or deactivation control information) of the slave node to the user device. Tells you to proceed with control.

Furthermore, the second communication unit of the slave node can also control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Situation 4:

When the network configures the user's data bearer, for example, when configuring one SCG split bearer, the first communication unit of the slave node is the master node (in other words, the second type) Indication information), and sends MAC CE to the main node to indicate that there is no need to proceed with data replication control;

The main node transmits control information (which may be second type activation or deactivation control information here) to the user device, informing the UE to proceed with activation or deactivation control of the data replication function by the MAC CE transmitted by the slave node. .

Furthermore, the second communication unit of the first node may control the UE to control the activation or deactivation of the data function, and detailed processing methods are not described herein.

Finally, a description of the overall structure for performing the data replication function described in this embodiment may refer to FIG. 6, and the replication data transmission method may be referred to as uplink / downlink, packet data convergence protocol (PDCP, Packet Data). The Convergence Protocol layer is located in a cell group (CG, CEll Group), and among them, a cell group may include a master cell group (MCG) and a secondary cell group (SCG). PDCP duplicates the PDCP Protocol Data Unit (PDU) into the same two; The two PDCPs reach the corresponding MAC and RLC layers of the terminal (downlink) or base station (uplink) via the RLC, MAC, and air interfaces of the other CGs, and finally converge to the PDCP again; When the PDCP layer monitors that two PDCPs are the same replication version, one of them is discarded and the other is transferred to the upper layer.

As can be seen from this, through the use of the scheme, the control of the data duplication function for the UE of the second node through the first node can be turned on or off, and the first node or the node can be sent back to the UE. It is instructed to proceed with the control of the data replication function based on the control of the second node. Therefore, the UE side receives the MAC CE of the second node and the first node under a dual connection situation to prevent the problem of controlling the data replication function, and in advance balances between the second node and the first node. By making it possible to proceed, it improves the coordination and processing efficiency between each node in the network structure.

Example 4

In this application, a second node is provided, as illustrated in FIG. 8,

When configuring a data bearer for a user equipment (UE), receive command information transmitted by a first node; The command information includes a receiving unit 81 that turns on or off control of a data duplication function for the UE of the second node.

It is the same as the definition of the second node and the first node in the above embodiment, and detailed description is omitted here.

After receiving the command information, the method may also include several processing methods below.

Method 1: The information transmission unit 82 activates or deactivates a data replication function for the UE as the second node when the command information transmitted by the first node is first type command information Direct control to proceed;

Transmit first type activation or deactivation control information to the UE; Among them, the first type activation or deactivation control information instructs the UE to proceed with activation or deactivation control of the data replication function based on the MAC control element (CE) of the second node.

Method 2:

When the command information transmitted by the first node is the second type command information, the information transmission unit 82 performs activation or deactivation control of the data replication function with respect to the UE as the second node. Not to;

Transmit second type activation or deactivation control information to the UE; Among them, the second type activation or deactivation control information instructs the UE to proceed with activation or deactivation control of the data replication function based on the MAC control element (CE) of the first node.

The information transmission unit transmits control information of activation or deactivation of the data duplication function to the UE through MAC CE. In other words, after determining that the second node controls the data replication function of the UE, specific control information on activation or deactivation of the data replication function may be transmitted to the UE.

Furthermore, it should be pointed out that the network of the present embodiment can be implemented by being included in various processing processes before configuring the user's data bearer, for example, when configuring one SCG split bearer. The processing provided in the examples can be carried out; In addition, it is needless to say that the operation can be performed in other processing steps, and it will not be described in detail in the present embodiment.

As can be seen from this, through the use of the scheme, the control of the data duplication function for the UE of the second node through the first node can be turned on or off, and the first node or the node can be sent back to the UE. It is instructed to proceed with the control of the data replication function based on the control of the second node. Therefore, the UE side receives the MAC CE of the second node and the first node under a dual connection situation, and prevents the problem of controlling the data replication function, and in advance balances between the second node and the first node. By making it possible to proceed, it improves the coordination and processing efficiency between each node in the network structure.

Embodiments of the present invention also provide a hardware configuration structure of a first node or a second node, all of which are at least one processor 91, storage 92, at least one network, as shown in FIG. Interface 93 may be included. Each module is connected together through a bus system 94. The bus system 94 implements connection communication between these modules. In addition to the data bus, the bus system 84 also includes a power bus, a control bus, and a status signal bus. However, for the sake of clarity, in FIG. 10, each bus is represented by the bus system 94.

The memory device 92 in the embodiment of the present invention may be a volatile memory device or a nonvolatile memory device, or may include two types of volatile and nonvolatile memory devices.

In some implementations, the following elements are stored in the storage device 92, that is, the enforcement module or data structure or a subset thereof or a superset thereof, the operating system 921 and the application program 922.

Among them, the processor 91 transmits command information to a second node when configuring a data bearer for a user equipment (UE); Among them, the command information turns on or off control of a data duplication function for the UE of the second node; Transmitting activation or deactivation control information to the UE; Among them, the control information is configured to include instructing the UE to perform activation or deactivation control of the data replication function by the MAC control element (CE) of the second node or the first node.

Or when configuring a data bearer for a user equipment (UE), receive command information transmitted by the first node; The command information turns on or off control of the data replication function for the UE of the second node.

The device of the embodiments of the present invention is implemented in the form of a software function module and can be stored in a computer readable storage medium when sold or used as an independent product. Based on this, a part contributing to the essential or prior art of the technical solution of the embodiment of the present invention may be implemented in the form of a software product, and the corresponding computer software product may be stored in a single storage medium. Instructions may be included to enable a computer facility (which may be, but is not limited to, a computer, server, or network facility) to implement all or part of the method of each embodiment of the present invention. The storage medium may be various media that can store program codes such as a USB memory, a mobile hard disk, a read-only memory (ROM), a magnetic disk, or an optical disk. As such, embodiments of the present invention are not limited by the combination of hardware and software in any particular form.

Accordingly, the embodiment of the present invention also provides a computer storage medium, in which a computer program is stored, and the computer program executes the data scheduling method of the embodiment of the present invention.

In the above, the present invention has been illustrated and described with respect to specific embodiments, but the present invention is not limited to the above-described embodiments, and the following claims may be made by those skilled in the art to which the present invention pertains. Any number of changes can be made without departing from the scope of the technical idea of the present invention described in the scope.

Claims (20)

As a control method,
Applied to the first node,
When configuring a data bearer for a user equipment (UE), send command information to a second node; And the command information includes turning on or off control of a data duplication function for the UE of the second node. According to claim 1,
After sending the command information to the second node, the method also includes:
Transmitting activation or deactivation control information to the UE; The activation or deactivation control information includes instructing the UE to proceed with activation or deactivation control of a data replication function based on control information transmitted by the second node or the first node. Way. According to claim 1,
When configuring the data bearer for the user equipment (UE), to transmit the command information to the second node,
Transmitting the first type command information to the second node, the first type command information instructing the second node to proceed with activation or deactivation control of the data replication function;
or,
As the second type command information is transmitted to the second node, the second type command information includes instructing the second node not to proceed with activation or deactivation control of the data replication function. Control method. According to claim 3,
To transmit the activation or deactivation control information to the UE,
When the command information for the UE transmitted to the second node is first type command information, the first type activation or deactivation control information is transmitted to the UE, and the first type activation or deactivation control information is sent to the UE Instructs to proceed with activation or deactivation control of the data replication function based on the control information transmitted by the second node;
When the command information for the UE transmitted to the second node is the second type command information, the second type activation or deactivation control information is transmitted to the UE, and the second type activation or deactivation control information is sent to the UE And instructing to proceed with activation or deactivation control of the data duplication function based on the control information transmitted by the first node. According to claim 4,
After transmitting the second type activation or deactivation control information to the UE, the method also includes:
And transmitting control information of activation or deactivation of the data replication function to the UE. As a control method,
Applied to the second node,
When configuring a data bearer for a user equipment (UE), receive command information transmitted by a first node; And the command information includes turning on or off control of a data duplication function for the UE of the second node. The method of claim 6,
The method also includes:
When the command information transmitted by the first node is first type command information, the first type command information instructs the second node to proceed with activation or deactivation control of the data replication function to the UE;
Transmit first type activation or deactivation control information to the UE; The first type activation or deactivation control information includes instructing the UE to proceed with activation or deactivation control of a data replication function based on the control information of the second node. The method of claim 6,
The method also includes:
When the command information transmitted by the first node is second type command information, the second type command information instructs the second node not to perform activation or deactivation control of the data replication function to the UE;
Transmit second type activation or deactivation control information to the UE; The second type activation or deactivation control information includes instructing the UE to proceed with activation or deactivation control of the data replication function based on the control information of the first node. The method of claim 7,
After transmitting the first type activation or deactivation control information to the UE, the method also includes:
And transmitting control information of activation or deactivation of the data replication function to the UE. In the first node,
When configuring a data bearer for a user equipment (UE), send command information to a second node; The command information includes a first communication unit for turning on or off control of a data duplication function for the UE of the second node. The method of claim 10,
The first node also has:
Transmitting activation or deactivation control information to the UE; The activation or deactivation control information includes a second communication unit including instructing the UE to proceed with activation or deactivation control of a data replication function based on control information transmitted by the second node or the first node. A first node characterized by. The method of claim 10,
The first communication unit transmits first type command information to the second node, wherein the first type command information instructs the second node to proceed with activation or deactivation control of the data replication function;
or,
The second type command information is transmitted to the second node, and the second type command information instructs the second node not to proceed with activation or deactivation control of the data replication function. Node. The method of claim 11,
The second communication unit transmits the first type activation or deactivation control information to the UE when the command information for the UE transmitted to the second node is first type command information, and the first type activation or deactivation is performed. The control information instructs the UE to proceed with activation or deactivation control of the data replication function based on the control information transmitted by the second node;
When the command information for the UE transmitted to the second node is the second type command information, the second type activation or deactivation control information is transmitted to the UE, and the second type activation or deactivation control information is sent to the UE The first node, characterized in that instructs to proceed with the activation or deactivation control of the data replication function based on the control information transmitted by the first node. The method of claim 13,
The second communication unit transmits control information of activation or deactivation of a data replication function to the UE. In the second node,
When configuring a data bearer for a user equipment (UE), receive command information transmitted by a first node; The command information includes a receiving unit that turns on or off control of a data duplication function for the UE of the second node. The method of claim 15,
The second node also has:
When the command information transmitted by the first node is first type command information, the first type command information instructs the second node to proceed with activation or deactivation control of the data replication function to the UE; Transmit first type activation or deactivation control information to the UE; The first type of activation or deactivation control information is a second node, characterized in that the UE includes an information transmission unit instructing to proceed with activation or deactivation control of the data replication function based on the control information of the second node. The method of claim 15,
The second node also has:
When the command information transmitted by the first node is second type command information, the second type command information instructs the second node not to perform activation or deactivation control of the data replication function to the UE; Transmit second type activation or deactivation control information to the UE; The second type of activation or deactivation control information is a second node, characterized in that the UE includes an information transmission unit instructing to proceed with activation or deactivation control of the data replication function based on the control information of the first node. The method of claim 16,
The information transmitting unit transmits control information of activation or deactivation of the data replication function to the UE. As a computer storage medium,
The computer storage medium has computer-executable instructions stored thereon, and when the computer-executable instructions are executed, the computer storage medium embodying the steps of the method of claim 1. As a computer storage medium,
The computer storage medium has computer-executable instructions stored thereon, and when the computer-executable instructions are executed, implement the steps of the method of any one of claims 6 to 9.

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